Fuel pump with determinant translating cam arrangement

What is claimed is: 1. A fuel pump comprising: a housing having a pump chamber, an inlet in fluid communication with the pump chamber, and an outlet in fluid communication with the pump chamber; a spacer ring fixedly mounted to the housing; a rotor disposed in the pump chamber; a cam arrangement radially interposed between the rotor and the spacer ring, the cam arrangement engaging the spacer ring at an interface at which the cam arrangement rolls relative to the spacer ring between a zero displacement position and a full displacement position; an involute gear set defining the interface between the cam arrangement and the spacer ring, the involute gear set including a first part formed by the cam arrangement and a second part formed by the spacer ring; and an actuator configured to roll the cam arrangement relative to the spacer ring to selectively vary pump output while maintaining a center point of the cam arrangement along a linear translation axis; wherein one of the first and second parts includes an involute tooth and the other of the first and second parts includes a notch sized to receive the involute tooth, and the involute tooth has peripheral sides each having an involute curve. 2. The fuel pump of claim 1 , wherein the notch has linear walls. 3. The fuel pump of claim 1 , wherein the notch includes a well, the tooth includes a truncated tip, and the tip is configured not to extend into the well; and wherein the tooth includes an undercut at at least one of the peripheral sides, the notch includes a corner on a linear notch wall, and the undercut is configured to accommodate the corner. 4. The fuel pump of claim 1 , further comprising a port plate fixedly coupled to the spacer ring, the port plate defining a plurality of inlet ports and outlet ports disposed at opposite sides of a timing line. 5. The fuel pump of claim 4 , wherein the linear translation axis is coaxial with the timing line. 6. The fuel pump of claim 4 , wherein the linear translation axis is parallel to the timing line. 7. The fuel pump of claim 4 , wherein the linear translation axis is angled relative to the timing line. 8. The fuel pump of claim 1 , wherein the center point of the cam arrangement is coaxial with a rotation axis of the rotor when the cam arrangement is disposed in the zero displacement position. 9. The fuel pump of claim 1 , wherein the center point of the cam arrangement is offset from, but parallel to a rotation axis of the rotor when the cam arrangement is disposed in the zero displacement position. 10. The fuel pump of claim 1 , wherein the cam arrangement includes a cam ring disposed within a cam sleeve, the cam ring being formed of a different material than the cam sleeve. 11. The fuel pump of claim 10 , wherein the cam ring is movable relative to the cam sleeve. 12. The fuel pump of claim 1 , further comprising circumferentially spaced vanes operatively associated with the rotor, the vanes extending from grooves defined in the rotor to an inner surface of the cam arrangement to define a plurality of pumping chambers in alignment with the inlet and outlet ports of a port plate. 13. The fuel pump of claim 1 , further comprising first and second lobes, wherein the first and second lobes are provided on the cam arrangement at a location opposite the involute gear set, and wherein the actuator is configured to push against the first and second lobes to roll the cam arrangement relative to the spacer ring. 14. A fuel pump comprising: a housing arrangement defining a pump chamber, the housing arrangement including a port plate defining a plurality of inlet ports and a plurality of outlet ports disposed at opposite sides of a timing line; a spacer ring fixedly mounted to the port plate; a rotor disposed in the pump chamber and configured to rotate relative to the spacer ring, the rotor including a plurality of outwardly extending vanes; a cam arrangement radially interposed between the rotor and the spacer ring, the cam arrangement engaging the spacer ring at an interface at which the cam arrangement rolls relative to the spacer ring between a zero displacement position and a full displacement position, the cam arrangement cooperating with the vanes to define pumping chambers, the cam arrangement having a center point that moves along a translation axis as the cam arrangement moves between the zero displacement position and the full displacement position, and the interface being configured so that the translation axis is angled relative to the timing line; an actuator configured to roll the cam arrangement relative to the spacer ring to selectively vary pump output; and an involute gear set defining the interface between the cam arrangement and the spacer ring, the involute gear set including a first part formed by the cam arrangement and a second part formed by the spacer ring; wherein one of the first and second parts includes an involute tooth and the other of the first and second parts includes a notch sized to receive the involute tooth, and the involute tooth has peripheral sides each having an involute curve. 15. The fuel pump of claim 14 , wherein the cam arrangement is mounted to the spacer ring so that the center point is offset from the timing line when the cam arrangement is disposed in the zero displacement position. 16. The fuel pump of claim 14 , wherein the cam arrangement is mounted to the spacer ring so that the center point is coaxial with the timing line when the cam arrangement is disposed in the zero displacement position. 17. The fuel pump of claim 14 , wherein the cam arrangement is mounted to the spacer ring so that the center point is aligned with the timing line when the cam arrangement is disposed in the full displacement position. 18. The fuel pump of claim 14 , wherein the interface includes an involute gear arrangement. 19. A fuel pump comprising: a housing having a pump chamber, an inlet in fluid communication with the pump chamber, and an outlet in fluid communication with the pump chamber; a spacer ring fixedly mounted to the housing; a rotor disposed in the pump chamber; a cam arrangement radially interposed between the rotor and the spacer ring, the cam arrangement engaging the spacer ring at an interface at which the cam arrangement rolls relative to the spacer ring between a zero displacement position and a full displacement position; an involute gear set defining the interface between the cam arrangement and the spacer ring, the involute gear set including a first part formed by the cam arrangement and a second part formed by the spacer ring; an actuator configured to move the cam arrangement relative to the spacer ring to selectively vary pump output during a pump stroke; and wherein one of the first and second parts includes an involute tooth and the other of the first and second parts includes a notch sized to receive the involute tooth, and the involute tooth has peripheral sides each having an involute curve. 20. The fuel pump of claim 19 , wherein the cam arrangement is configured to deform so that a center point of the cam arrangement is moved along a deformation direction by a deformation distance during the pump stroke; and the involute gear set is configured to provide a compensation motion of the center point of the cam arrangement counter to the deformation direction. 21. A fuel pump comprising: a housing having a pump chamber, an inlet in fluid communication with the pump chamber, and an outlet in fluid communication wi